mirror of
https://github.com/DarkflameUniverse/DarkflameServer.git
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0545adfac3
Have fun!
208 lines
5.4 KiB
C++
208 lines
5.4 KiB
C++
/*
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* Darkflame Universe
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* Copyright 2018
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*/
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#pragma once
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#include "NiPoint3.h"
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#include "NiQuaternion.h"
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#include "BitStream.h"
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#include <vector>
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#include "CppScripts.h"
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#include "InvalidScript.h"
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#include "Component.h"
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class LDFBaseData;
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class Entity;
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class dpEntity;
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/**
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* Allows the creation of phantom physics for an entity: a physics object that is generally invisible but can be
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* collided with using various shapes to detect collision on certain points in the map. Generally these are used to
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* trigger gameplay events, for example the bus in Avant Gardens that moves around when the player touches its physics
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* body. Optionally this object can also have effects, like the fans in AG.
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*/
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class PhantomPhysicsComponent : public Component {
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public:
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static const uint32_t ComponentType = COMPONENT_TYPE_PHANTOM_PHYSICS;
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PhantomPhysicsComponent(Entity* parent);
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~PhantomPhysicsComponent() override;
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void Update(float deltaTime) override;
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void Serialize(RakNet::BitStream* outBitStream, bool bIsInitialUpdate, unsigned int& flags);
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void ResetFlags();
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/**
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* Creates the physics shape for this entity based on LDF data
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*/
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void CreatePhysics();
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/**
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* Sets the direction this physics object is pointed at
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* @param pos the direction to set
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*/
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void SetDirection(const NiPoint3& pos);
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/**
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* Returns the direction this physics object is pointed at
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* @return the direction this physics object is pointed at
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*/
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const NiPoint3& GetDirection() const { return m_Direction; }
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/**
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* Returns the multiplier by which the direction coordinates are multiplied
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* @return the multiplier by which the direction coordinates are multiplied
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*/
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float GetDirectionalMultiplier() const { return m_DirectionalMultiplier; }
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/**
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* Sets the multiplier by which direction coordinates are multiplied
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* @param mul the multiplier to set
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*/
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void SetDirectionalMultiplier(float mul);
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/**
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* Returns whether or not there's currently an effect active
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* @return true if there's an effect active, false otherwise
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*/
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bool GetPhysicsEffectActive() const { return m_IsPhysicsEffectActive; }
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/**
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* Sets whether or not there's a physics effect active
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* @param val whether or not there's an effect active
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*/
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void SetPhysicsEffectActive(bool val) { m_IsPhysicsEffectActive = val; m_EffectInfoDirty = true; }
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/**
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* Returns the position of this physics object
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* @return the position of this physics object
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*/
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const NiPoint3& GetPosition() const { return m_Position; }
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/**
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* Sets the position of this physics object
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* @param pos the position to set
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*/
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void SetPosition(const NiPoint3& pos);
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/**
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* Returns the rotation of this physics object
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* @return the rotation of this physics object
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*/
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const NiQuaternion& GetRotation() const { return m_Rotation; }
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/**
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* Sets the rotation of this physics object
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* @param rot the rotation to set
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*/
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void SetRotation(const NiQuaternion& rot);
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/**
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* Returns the effect that's currently active, defaults to 0
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* @return the effect that's currently active
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*/
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uint32_t GetEffectType() const { return m_EffectType; }
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/**
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* Sets the effect that's currently active
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* @param type the effect to set
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*/
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void SetEffectType(uint32_t type);
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/**
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* Spawns an object at each of the vertices for debugging purposes
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*/
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void SpawnVertices();
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/**
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* Legacy stuff no clue what this does
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*/
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void SetMin(uint32_t min);
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/**
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* Legacy stuff no clue what this does
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*/
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void SetMax(uint32_t max);
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private:
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/**
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* The position of the physics object
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*/
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NiPoint3 m_Position;
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/**
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* The rotation of the physics object
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*/
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NiQuaternion m_Rotation;
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/**
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* A scale to apply to the size of the physics object
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*/
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float m_Scale;
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/**
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* Whether or not the position has changed and needs to be serialized
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*/
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bool m_PositionInfoDirty;
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/**
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* Whether or not the effect has changed and needs to be serialized
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*/
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bool m_EffectInfoDirty;
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/**
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* Whether or not there's currently a physics effect active
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*/
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bool m_IsPhysicsEffectActive;
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/**
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* The physics effect that's currently active, defaults to 0
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*/
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uint32_t m_EffectType;
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/**
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* A scaling multiplier to add to the directional vector
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*/
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float m_DirectionalMultiplier;
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bool m_MinMax;
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uint32_t m_Min;
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uint32_t m_Max;
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/**
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* Whether or not this physics object is pointed in some direction
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*/
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bool m_IsDirectional;
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/**
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* The direction this physics object is pointed in, if any
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*/
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NiPoint3 m_Direction;
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/**
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* The parent entity of this component
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*/
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dpEntity* m_dpEntity;
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/**
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* Whether or not the physics object has been created yet
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*/
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bool m_HasCreatedPhysics = false;
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/**
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* Whether or not this physics object represents an object that updates the respawn pos of an entity that crosses it
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*/
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bool m_IsRespawnVolume = false;
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/**
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* If this is a respawn volume, the exact position an entity will respawn
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*/
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NiPoint3 m_RespawnPos;
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/**
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* If this is a respawn volume, the exact rotation an entity will respawn
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*/
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NiQuaternion m_RespawnRot;
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}; |